Hey I've been using Linux for a while and thought it was time to finally dive into shell scripting.

The problem is I've failed to find any significant advantage of using Bash over something like Perl or Python. Are there any performance or power differences between the two? I'd figure Python/Perl would be more well suited as far as power and efficiency goes.


Two advantages come to mind:

  • Simplicity: direct access to all wonderful linux tools wc, ls, cat, grep, sed... etc. Why constantly use python's subprocess module?
  • I'm increasingly fond of using gnu parallel, with which you can execute your bash scripts in parallel. E.g. from the man page, batch create thumbs of all jpgs in directory in parallel:

    ls *.jpg | parallel convert -geometry 120 {} thumb_{}

By the way, I usually have some python calls in my bash scripts (e.g. for plotting). Use whatever is best for the task!


Perl scripts are usually (if not 100% of the times) faster than bash.

A discussion on that: Perl vs Bash


bash isn't a language so much as a command interpreter that's been hacked to death to allow for things that make it look like a scripting language. It's great for the simplest 1-5 line one-off tasks, but things that are dead simple in Perl or Python like array manipulation are horribly ugly in bash. I also find that bash tends not to pass two critical rules of thumb:

  1. The 6-month rule, which says you should be able to easily discern the purpose and basic mechanics of a script you wrote but haven't looked at in 6 months.

  2. The 'WTF per minute' rule. Everyone has their limit, and mine is pretty small. Once I get to 3 WTFs/min, I'm looking elsewhere.

As for 'shelling out' in scripting languages like Perl and Python, I find that I almost never need to do this, fwiw (disclaimer: I code almost 100% in Python). The Python os and shutil modules have most of what I need most of the time, and there are built-in modules for handling tarfiles, gzip files, zip files, etc. There's a glob module, an fnmatch module... there's a lot of stuff there. If you come across something you need to parallelize, then indent your code a level, put it in a 'run()' method, put that in a class that extends either threading.Thread or multiprocessing.Process, instantiate as many of those as you want, calling 'start()' on each one. Less than 5 minutes to get parallel execution generally.

Best of luck. Hope this helps.

  • I agree, except that my personal limit for switching from shell to Perl is at 10-20 lines. – reinierpost May 3 '11 at 8:50
  • The Bourne shell (ignoring bash - you don't normally have to resort to bash extensions to write shell scripts) has not been 'hacked about' all that much to be a scripting language - it's probably 30 years old and the basic programming features like loops, conditions and functions were there from the outset. – ijw May 7 '11 at 12:16

The advantage is that it's right there. Unless you use Python (or Perl) as your shell, writing a script to do a simple loop is a bunch of extra work.

For short, simple scripts that call other programs, I'll use Bash. If I want to keep the output, odds are good that I'll trade up to Python.

For example:

for file in *; do process $file ; done

where process is a program I want to run on each file, or...

while true; do program_with_a_tendency_to_fail ; done

Doing either of those in Python or Perl is overkill.

For actually writing a program that I expect to maintain and use over time, Bash is rarely the right tool for the job. Particularly since most modern Unices come with both Perl and Python.

  • 1
    try this a substitute for your first example (less typing, more parallel): ls | parallel process – Sebastian May 2 '11 at 15:35
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    @Sebastian: Magical! Though I think parallel process -- * is closer. – nmichaels May 2 '11 at 16:05
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    ls | xargs process would also work, in the same manner, but all these methods have a bug: they don't work with filenames with spaces or linefeeds in. You want: for f in * ; do process "$f" ; done – ijw May 2 '11 at 19:17
  • @ijw: Whoops, you're right. Fixed. – nmichaels May 2 '11 at 20:20
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    @nmichaels: You are using pexec. To try gnu parallel follow the link in my comment above. PS: an alternative syntax for the first example with gnu parallel would be: parallel process ::: * (a bit closer to pexec) – Sebastian May 3 '11 at 8:47

For big projects use a language like Perl.

There are a few things you can only do in bash (for example, alter the calling environment (when a script is sourced rather than run). Also, shell scripting is commonplace. It is worthwhile to learn the basics and learn your way around the available docs.

Plus there are times when knowing a shell well can save your bacon (on a fork-bombed system where you can't start any new processes, or if /usr/bin and or /usr/local/bin fail to mount).


The most important advantage of POSIX shell scripts over Python or Perl scripts is that a POSIX shell is available on virtually every Unix machine. (There are also a few tasks shell scripts happen to be slightly more convenient for, but that's not a major issue.) If the portability is not an issue for you, I don't see much need to learn shell scripting.

  • Every Unix machine ships with Perl. – tchrist May 3 '11 at 12:55
  • @tchrist: In the generality you stated it, this is just plain wrong. – Sven Marnach May 3 '11 at 12:57
  • Name your exceptions. – tchrist May 3 '11 at 18:34
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    For example in high performance computing, you can usually rely on Perl being available on the front nodes, but not necessarily on the compute nodes. And it's not that difficult to set up a Linux box without Perl. – Sven Marnach May 4 '11 at 11:01

If you want to execute programs installed on the machine, nothing beats bash. You can always make a system call from Perl or Python, but I find it to be a hassle to read return values, etc.

And since you know it will work pretty much anywhere throughout all of of time...

  • I didn’t know that Python supported syscall, as these Perl examples show that Perl does: syscall(&SYS_gettimeofday, $tv, undef) >= 0 or syscall(&SYS_setgroups, scalar @newgids, pack("i*", @newgids)) – tchrist May 3 '11 at 18:35
  • By "system" call I meant "to the shell". Not literal system calls. I didn't know Perl could do that. – drysdam May 3 '11 at 19:05
  • I see shelling out and making a syscall as very different things. One merely calls some user-level program like a shell would do, while the other traps directly into the kernel without any muss or fuss. The first necessarily employs many syscalls; the second, necessarily exactly one. – tchrist May 3 '11 at 20:02
  • I agree, they are very different. But since I didn't know you could make an actual system call from Perl, I was using "system call" in the sense it is often used from scripts: to mean a shell command. – drysdam May 3 '11 at 21:29
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    If you call the system function, you're shelling out, not making a syscall. Of course you can make syscalls from Perl: In Perl all things are possible, but not all are expedient. – tchrist May 3 '11 at 23:50

The advantage of shell scripting is that it's globally present on *ix boxes, and has a relatively stable core set of features you can rely on to run everywhere. With Perl and Python you have to worry about whether they're available and if so what version, as there have been significant syntactical incompatibilities throughout their lifespans. (Especially if you include Python 3 and Perl 6.)

The disadvantage of shell scripting is everything else. Shell scripting languages are typically lacking in expressiveness, functionality and performance. And hacking command lines together from strings in a language without strong string processing features and libraries, to ensure the escaping is correct, invites security problems. Unless there's a compelling compatibility reason you need to go with shell, I would personally plump for a scripting language every time.

  • Perl 6 is installed as different executable, so you can use Perl 5 in any case. – Alexandr Ciornii May 3 '11 at 8:26

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